使用移位通道的WSI超立方体设计

Proceedings 1992 IEEE International Workshop on Defect and Fault Tolerance in VLSI Systems Pub Date : 1992-11-04 DOI:10.1109/DFTVS.1992.224352

H. Ito, E. Hosoya

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引用次数: 1

摘要

提出了一种基于WSI(晶圆规模集成)的超立方体网络(HC)的新设计。该设计使得静态和动态重构都是可行的。提出了一种将第欧根尼方法应用于平面结构的WSI HC设计。然而，在第欧根尼斯方法中，每次导线通过一个处理元件(PE)时，它至少通过一个场效应管。因此，该设计的缺点是在pe之间的链路中存在许多场效应管，从而带来较大的通信延迟时间。本文提出的设计通过利用两个通道(称为移位通道和基本通道)进行重构，减少了pe之间链路中的场效应管数量。这种设计可以通过使用一种结构来完成，在这种结构中，场效应管只包含在移位通道中，而不包含在基本通道中。通道是一束导线，其轨道宽度足以制造子hc。移位通道中的开关与第欧根尼斯方法中的开关类似，但它是新设计的专用开关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A WSI hypercube design using shift channels

A novel design of a hypercube network (HC) on WSI (wafer scale integration) is proposed. the design makes both static and dynamic reconfigurations feasible. A WSI HC design by applying the Diogenes method to a planar structure has been proposed. However, in Diogenes method, every time a wire passes a processing element (PE), it passes at least one FET. Therefore, the design has a drawback that there are many FETs in a link between PEs and then it brings a large communication delay time. The design proposed here reduces the number of FETs in a link between PEs by utilizing two channels, called shift channel and basic channel for reconfiguration. The design can be accomplished by using a structure in which FETs are contained only in shift channels but not in basic channels. The channel is a bundle of wires which has a track width sufficient to make sub-HCs. A switch in the shift channel is similar to the switch of Diogenes method, but it is newly designed as a dedicated one.<>

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Proceedings 1992 IEEE International Workshop on Defect and Fault Tolerance in VLSI Systems

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